Renata Collard scite author profile

Renata Collard

2Publications

42Citation Statements Received

93Citation Statements Given

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Affiliations

Czech Academy of Sciences, Institute of Molecular Genetics, University of Colorado Health

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New insights into intra‐ and intermolecular interactions of immunoglobulins: crystal structure of mouse IgG2b‐Fc at 2·1‐Å resolution

Kolenko¹,

Dohnálek²,

Dušková³

et al. 2009

Immunology

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SummaryThe structure of the Fc fragment of monoclonal antibody IgG2b from hybridom M75 of Mus musculus has been determined by single crystal X-ray diffraction. This is the first report of the structure of the murine immunoglobulin isotype IgG2b. The structure refined at 2Á1 Å resolution provides more detailed structural information about native oligosaccharides than was previously available. High-quality Fourier maps provide a clear identification of a-L-fucose with partial occupancy in the first branch of the antennary oligosaccharides. A unique Fc:Fc interaction was observed at the C H 2-C H 3 interface.

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Stabilization of antibody structure upon association to a human carbonic anhydrase IX epitope studied by X‐ray crystallography, microcalorimetry, and molecular dynamics simulations

et al. 2007

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Specific antibodies interfere with the function of human tumor-associated carbonic anhydrase IX (CA IX), and show potential as tools for anticancer interventions. In this work, a correlation between structural elements and thermodynamic parameters of the association of antibody fragment Fab M75 to a peptide corresponding to its epitope in the proteoglycan-like domain of CA IX, is presented. Comparisons of the crystal structures of free Fab M75 and its complex with the epitope peptide reveal major readjustments of CDR-H1 and CDR-H3. In contrast, the overall conformations and positions of CDR-H2 and CDR-L2 remain unaltered, and their positively charged residues may thus present a fixed frame for epitope recognition. Adoption of the altered CDR-H3 conformation in the structure of the complex is accompanied by an apparent local stabilization. Analysis of domain mobility with translation-libration-screw (TLS) method shows that librations of the entire heavy chain variable domain (V(H)) decrease and reorient in the complex, which correlates well with participation of the heavy chain in ligand binding. Isothermal titration microcalorimetry (ITC) experiments revealed a highly unfavorable entropy term, which can be attributed mainly to the decrease in the degrees of freedom of the system, the loss of conformational freedom of peptide and partially to a local stabilization of CDR-H3. Moreover, it was observed that one proton is transferred from the environment to the protein-ligand complex upon binding. Molecular dynamics simulations followed by molecular mechanics/generalized Born surface area (MM-GBSA) calculations of the ligand (epitope peptide) binding energy yielded energy values that were in agreement with the ITC measurements and indicated that the charged residues play crucial role in the epitope binding. Theoretical arguments presented in this work indicate that two adjacent arginine residues (ArgH50 and ArgH52) are responsible for the observed proton transfer.

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Renata Collard

New insights into intra‐ and intermolecular interactions of immunoglobulins: crystal structure of mouse IgG2b‐Fc at 2·1‐Å resolution

Stabilization of antibody structure upon association to a human carbonic anhydrase IX epitope studied by X‐ray crystallography, microcalorimetry, and molecular dynamics simulations

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